Environmentally benign anti-icing or deicing fluids

ABSTRACT

The present invention provides deicing compositions which are environmentally benign, a process for producing the composition from certain waste process streams, and methods of deicing and/or anti-icing.

CROSS REFERENCES TO RELATED APPLICATIONS

This is a continuation of application Ser. No. 09/436,811, filed Nov. 9,1999, U.S. Pat. No. 6,129,857, issued Oct. 10, 2000, which is itself acontinuation of application Ser. No. 09/161,865, filed Sep. 28, 1998,now U.S. Pat. No. 5,980,774, issued Nov. 9, 1999, which in turn is acontinuation-in-part of Ser. No. 08/940,936, filed Sep. 30, 1997, nowU.S. Pat. No. 5,876,621, issued Mar. 2, 1999.

The present invention relates to a deicing fluid composition. Moreparticularly the present invention relates to a deicing fluidcomposition which is environmentally benign. Most particularly thepresent invention relates to an environmentally benign deicing fluidcomposition which is obtained from various industrial waste streams orfrom the pure components.

BACKGROUND OF THE INVENTION

Freezing point lowering compositions are in widespread use for a varietyof purposes, especially to reduce the freezing point of an aqueoussystem so that ice cannot be formed or to melt formed ice. Generally,freezing point lowering compositions depend for their effectiveness uponthe molar freezing point lowering effect, the number of ionic specieswhich are made available and the degree to which the composition can bedispersed in the liquid phase in which the formation of ice is to beprecluded and/or ice is to be melted.

The most pervasive of the commonly used products for deicing are commonsalt, calcium chloride and urea, with common salt (sodium chloride)being the least expensive and most commonly used. Common salt is widelyused to melt ice on road surfaces and the like. In this manner the saltforms a solution with the available liquid in contact with the ice andthereby forms a solution with a lower freezing point than the ice itselfso that the ice is melted. Chloride salts however suffer from relativelysevere drawbacks, such as the harmful effects on surrounding vegetationby preventing water absorption in the root systems, and its corrosiveeffects on animal skin such as the feet of animals, clothing, roadwaysand motor vehicles.

Other inorganic salts are also known to be useful as freezing pointlowering agents such as magnesium chloride, potassium phosphates, sodiumphosphates, ammonium phosphates, ammonium nitrates, alkaline earthnitrates, magnesium nitrate, ammonium sulfate, alkali sulfates.

Typical of solutions of low freezing points include brines, ethyleneglycol and propylene glycol solutions. Brines are used to transfer heatat temperatures below the normal freezing point of water, and theethylene glycol solutions are well known for use as coolants forautomobiles and the like in regions in which the temperature may fallbelow the normal freezing point of water. Ethylene and propylene glycolsare used in relatively large quantities at major airports in northernclimates in order to keep air traffic flowing during inclement weather.The fluids are generally applied to the wings, fuselage and tail ofaircraft as well as the runways to remove ice. However, these glycolcompounds likewise have environmental drawbacks and can be detrimentalto sewage treatment processes.

Other prior art deicing fluids such as alcohols have toxic effects andhigh volatility particularly in the low molecular weight range and maybe the cause of offensive smell and fire danger. Furthermore, mono- andpolyhydric alcohols oxidize in the presence of atmospheric oxygen toform acids, which can increase corrosion of materials.

Due to the problems associated with deicing agents as described abovethere have been attempts to prepare even more deicing agents. For,example, Kaes, U.S. Pat. No. 4,448,702 discloses the use of afreezing-point lowering composition and method which calls for theaddition of a water soluble salt of at least one dicarboxylic acidhaving at least three carbon atoms, such as a sodium, potassium,ammonium or organoamine salt of adipic, glutaric, succinic or malonicacid.

Peel, U.S. Pat. No. 4,746,449 teaches the preparation of a deicing agentcomprising 12-75% acetate salts, trace-36% carbonate salts, 1-24%formate salts and 1-32% pseudolactate salts which is prepared from apulp mill black liquor by fractionating the black liquor into amolecular weight fraction and concentrating the collected low molecularweight fraction to produce the deicing agent.

U.S. Pat. No. 4,960,531, teaches that small amounts of methylglucosides, i.e. less than 10%, can be employed as a trigger toconventional salt deicers.

However, all of these disclosures still require the presence of salts.Accordingly there still exists in the art a need for a deicing and/oranti-icing agent which is environmentally benign and relativelyinexpensive to obtain.

SUMMARY OF THE INVENTION

Accordingly the present invention comprises a deicing and/or anti-icingagent which is environmentally benign and can be produced fromrelatively inexpensive feedstocks. In one embodiment of the presentinvention the deicing agent comprises a water soluble solution ofhydroxycarboxylic acid based esters which are preferably prepared fromwaste process streams such as from the admixture of components of a pulpmill black liquor with distiller grain solubles and/or whey; the acidtreatment of pre-distilled wood, agricultural and/or milk fermentation;the alcoholysis of distiller grain solubles or any combination thereof.

The compositions of the present invention can be applied to a widevariety of surfaces, particularly metallic and non-metallic surfaces ofaircraft, which prevents icing, removes frozen water from the surfaceand prevents its reformation. The invention provides for a deicingcomposition which can be used on airplanes, runways, bridges, streetsand the like. Further, the compositions can be used in heat transferapplications and to applications in which it is vital to maintain aliquid in the unfrozen state, e.g., as in a fire extinguisher.Additionally, the present invention provides for an anti-icingcomposition which can be applied to a surface, such as bridges, prior tothe onset of icing conditions in order to prevent icing from occurring.

The present invention further provides deicing and/or anti-icing agentswhich are prepared from the pure components, hydroxycarboxylic acidesters, hydrocarbyl aldosides, and or combinations thereof. In onefurther embodiment of the present invention there is provided a methodfor deicing and/or anti-icing a surface, the method comprising applyingto the surface a composition comprising (a) a deicing and/or anti-icingagent comprising at least about 15 weight percent of a hydrocarbylaidoside and (b) water. In another further embodiment;, there isprovided a deicing and/or anti-icing agent composition comprising (a) ahydroxycarboxylic acid salt, (b) a hydrocarbyl aidoside and (c) water.

DETAILED DESCRIPTION OF THE PRESENT INVENTION

The present invention provides a novel composition useful as a deicingagent and/or an anti-icing agent and a novel method of preparing thedeicing and/or anti-icing agents.

The deicing agents of the present invention comprise a hydroxycarboxylicacid ester, a hydrocarbyl aldoside, or both.

Hydroxycarboxylic acid esters are well known to those of ordinary skillin the art and typically comprise hydroxyformate, hydroxyacetate,hydroxypropionate, hydroxybutyrate, hydroxylaurate, hydroxypalmitate,hydroxyoleate, hydroxybenzoate as well as others. Preferred for use inthe practice of the present invention are deicing agents comprisinga-hydroxypropionate type esters such as alkyl lactates.

Hydrocarbyl aldosides are well known to those of ordinary skill in theart. Preferably the hydrocarbyl aldosides comprise alkyl aldosidesarid/or sorbitols.

The alkyl aldosides can be prepared by a continuous alcoholysis processfor -making mixed aldoside from polysaccharides, and more particularly,for making mixed alkyl glycosides directly from starch, as described inU.S. Pat. No. 4,223,129. A further process of producing aldosides foruse in the practice of the present invention is described in U.S. Pat.No. 4,329,449.

Typical of the alkyl aldosides useful in the practice of the presentinvention are alpha-methyl glucoside, beta-methyl glucoside, methylfuranosides, methyl maltosides, methyl maltotriosides, mixtures thereofand the like.

In addition to the hydroxycarboxylic acid esters and/or hydrocarbylaldosides, a wide variety of other components may be included in thedeicing and/or anti-icing compositions of the present invention. Alongwith the free hydroxycarboxylic acid, preferably these include watersoluble anionic hydroxycarboxylic acid salts. Generally these componentsmay be added to the deicing and/or anti-icing compositions of thepresent invention or they are present in or are derived from the processwaste streams from which the compositions of the present invention maybe obtained.

Also, it is contemplated herein that anionic hydroxycarboxylic acidsalts alone or with amino acids and/or water soluble salts ofdicarboxylic acids having at least three carbon atoms, preferablyselected from adipic, succinic, glutaric and malonic acids may also beincluded, but are not necessary to the practice of the presentinvention. These can be added separately such as through the addition ofpulp mill black liquors or via alkali additions to hydroxycarboxylicacid containing compositions.

The deicing agents may be prepared from the pure chemical ingredients.For instance, a solution of 25% H₂O/10% sodium lactate/65% ethyl lactatewas found to have no crystal formation at a temperature of −50° C.

However, it is contemplated by the present invention to obtain thedeicing agents of the present invention from any of a number ofindustrial waste streams which comprise a water soluble solution ofhydroxycarboxylic acid, since lactic acid as it occurs in dilutefermentation liquors is inexpensive. The purification of this materialis difficult due to its similarity in solubility characteristics towater as the presence of impurities such as dextrins, proteins andunfermented sugars. For instance, the present invention contemplates theuse of waste stream selected from the group consisting of a grainstillage, a wood stillage, agricultural or milk fermentation andmixtures of any of the foregoing. Generally, the components of thepresent invention are present in or are derived by alcoholysis of theprocess waste streams. Typically these waste streams include componentssuch as lactic acid fractions and low molecular weight sugars such assorbitols, maltoses and glucoses.

By subjecting the waste streams to alcoholysis (with an alkyl alcohol)under conditions such as reacting with an alkyl alcohol in the presenceof a cation exchange material or other acid, or the addition of an alkylalcohol to a heated fermentation liquor as taught in Ind. Eng. Chem.,38, pg. 228, 1946 by E. M. Filachione and C. H. Fisher, at least some ofthe hydroxycarboxylic acids present are converted to thehydroxycarboxylic acid based esters and at least some of the sugars areconverted to glucosides, thereby improving the overall acidity of thematerial. For instance, ethanol treatment of a typical agriculturalfermentation waste stream comprising lactic acid and glucose would bepartially converted to ethyl lactate and ethyl glucoside. The use of thealcoholysis process aids in increasing the concentration of theglycosides and hydroxycarboxylates, thereby providing an improvedproduct.

For example, components of the present invention can include, but arenot limited to: ethyl lactate, glycerol, glycol lactate, ethylglycinate, ethyl levulinate, ethylenecarbonate, glycerin carbonate,pipecolic acid, tetrahydrofurfuryl acetate, tetrahydrofurfuryltetrahydrofuroate, sorbitol, glucose glutamate, methyl glucosides,acetais and ketals of glycerol such as2,2-dimethyl-1,3-dioxolane-4-methanol and salts thereof and the like.

As discussed above, although not critical for the present invention, thecompositions of the present invention may further comprise highsolubility salts in combination with the hydroxycarboxylates andglucosides. For example, useful salts could include, but are not limitedto: hydroxycarboxylic acid salts (including cesium, sodium, potassium,calcium and magnesium salts) such as sodium lactate; acetate salts suchas cesium acetate, sodium acetate, potassium acetate; formate salts suchas sodium formate; citrate salts such as sodium citrate; amino acids andtheir salts such as lysine glutamate, sodium pyrrolidone carboxylate andsodium glucoheptonate; dicarboxylic acids salts such as sodium andpotassium salts of adipic, glutaric, succinic and malonic acids; lignincomponents such as lignin sulfonate; boric acid and its salts, glycerinand the like.

Glycols such as propylene glycol, ethylene glycol may also be employedwith the compositions of the present invention where desired.

The amount of the acid components, i.e. the hydroxycarboxylic acidesters, hydroxycarboxylic acid salts, lignins and glucosides, which arepresent in the compositions of the present invention may vary widely andstill provide the improved freezing point lowering effect. Preferably,however, the compositions of the present invention comprise a totalweight of acid components ranging from about 10 to about 75 weightpercent, more preferably from about 20 to about 75 weight percent andmost preferably from about 30 to about 75 weight percent, based on theweight of acid and water combined.

The compositions of the present invention are considered non-toxic andreadily breakdown, even at low temperatures, in the natural environmentwithout any significant adverse effects. Moreover, the compositions ofthe present invention are considered to have lower Biological OxygenDemand (BOD) requirements than comparable de-icers, and a lesser amountof the composition of the present invention (higher water concentration)is required to prevent ice formation at a particular ambient airtemperature or quantity of ice. Since the concentration of an anti-icerthat is applied should be sufficient to prevent significant iceformation under reasonable conditions much smaller material usage forthe composition of the present invention at particular outside airtemperatures and precipitate rates results.

In the methods of the present invention, the deicing and/or anti-icingcompositions of the present invention are combined with water andapplied, such as by spraying, onto the surface desired to be treated. Inthe case of deicing, the surface already has ice formed thereon, and thedeicing compositions of the present invention melt the ice alreadyformed and are further effective in preventing additional ice formation.In the case of anti-icing, upon learning of a weather forecast whichpredicts possible dangerous icing conditions, the roads and bridges orother surfaces can be pretreated with the anti-icing compositions of thepresent invention in order to prevent ice formation on the surfaces.

In one embodiment of a method of the present invention where the deicingand/or anti-icing agent includes a hydrocarbyl aldoside without ahydroxycarboxylic acid ester component, the amount of hydrocarbylaldoside employed to obtain the benefits of the present invention is atleast about 15 weight percent based on the weight of the deicing and/oranti-icing agent (not including water) and can comprise up to 100 weightpercent. Typically, however the amount of hydrocarbyl aldoside is fromabout 15 to about 90 weight percent, such as from about 30 to about 90weight percent, and more particularly from about 50 to about 75 weightpercent.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following examples are provided for illustrative purposes and arenot to be construed to limit the scope of the claims in any mannerwhatsoever. Unless otherwise indicated, melting points were determinedusing a Differential Scanning Calorimeter (DSC). Scans were conductedfrom −160° C. up to 30° C. at 10° C. per minute on a 1 mg sample takenfrom a 20 g mixture. The complete melt point was utilized.

EXAMPLE 1

A mixture of 25% by weight water, 65% by weight ethyl lactate and 10% byweight sodium lactate was prepared. No crystal formation was observed ata temperature of −50° C.

EXAMPLE 2

A mixture of 50% by weight water and 50% by weight ethyl lactate wasprepared. The mixture had a melting point of −18° C.

EXAMPLE 3

A mixture of 70% by weight water, 24% by weight ethyl lactate and 6% byweight sodium lactate was prepared. The mixture had a melting point of−25° C. as determined by DSC and a pH of 6.0. For comparison, a 70% byweight water/30% by weight ethylene glycol solution has a melting pointof −18° C.

EXAMPLE 4

The addition of 50% by weight of a 50% mixture of ethyl lactate in waterto a concentrated, filtered corn steep liquor (containing 50% water and50% solids comprising mostly lactic acid and sugars) caused a reductionin freezing point from −11° C. to −16° C. The addition of 2% by weightsodium lactate further reduced the freezing point to −20° C.

EXAMPLE 5

A mixture of 60% by weight water, 20% by weight sodium lactate, 2% byweight proline (an amino acid), 8% by weight sorbitol and 10% by weightsodium pyrrolidone carboxylate (sodium PCA) was prepared. No crystalformation at −35° C. was observed. The pH was 6.57. For comparison a 50%by weight solution propylene glycol has a freezing point of −36° C.

EXAMPLE 6

A mixture of 12% by weight methyl lactate, 44% by weight methylglucoside and 44% by weight water was prepared. A melting point of −18°C. was observed. The mixture had a pH of 5.

EXAMPLE 7

A mixture containing 35% by weight methyl lactate, 35% by weight methylglucoside and 30% by weight water has a melting point of −21° C. asdetermined by DSC.

EXAMPLE 8

A filtered concentrated liquid residue of a 50% mixture of corn stillageand steepwater containing 50% by weight water with a freezing point of−12° C. is heated to 90° C. and treated with 5% ethanol for 8 hours. Theresulting mixture has a freezing point of −17° C. The addition of 2%sodium lactate further reduces the freezing point to −21° C.

The above-referenced patents and publications are hereby incorporated byreference.

Many variations of the present invention will suggest themselves tothose skilled in the art in light of the above-detailed description. Forexample, any process stream which contains components from whichhydroxycarboxylates can be prepared may be used to prepare thecompositions of the present invention. Additionally, a wide variety oflignins, sugars and glucosides may be present in the compositions of thepresent invention. All such obvious modifications are within the fullintended scope of the appended claims.

What is claimed is:
 1. A deicing and/or anti-icing agent comprising atleast about 10 weight percent based on the weight of (a) and (b) of (a)a hydrocarbyl aldoside selected from the group consisting offuranosides, maltosides, maltotriosides, glucopyranosides and mixturesthereof and (b) water.
 2. An agent as defined in claim 1 wherein saidhydrocarbyl aldoside comprises a furanoside.
 3. An agent as defined inclaim 1 wherein said hydrocarbyl aldoside comprises a maltoside.
 4. Anagent as defined in claim 1 wherein said hydrocarbyl aldoside comprisesa maltotrioside.
 5. An agent as defined in claim 1 wherein saidhydrocarbyl aldoside comprises a glucopyranoside.
 6. An agent as definedin claim 1 further comprising a soluble salt.
 7. An agent as defined inclaim 6 wherein said soluble salt comprises an organic salt selectedfrom the group consisting of a carboxylic acid salt, a dicarboxylic acidsalt, a hydroxycarboxylic acid salt and mixtures thereof.
 8. An agent asdefined in claim 7 wherein said organic salt comprises a hydroxyformate.9. An agent as defined in claim 7 wherein said organic salt comprises anacetate.
 10. An agent as defined in claim 1 further comprising aneffective freezing point lowering amount of a freezing point loweringadditive selected from the group consisting of amino acids, salts ofamino acids, lignin components, boric acid, salts of boric acid,glycerol, glycols and mixtures thereof.
 11. An agent as defined in claim6 further comprising an effective freezing point lowering amount of afreezing point lowering additive selected from the group consisting ofamino acids, salts of amino acids, lignin components, boric acid, saltsof boric acid, glycerol, glycols and mixtures thereof.
 12. A deicingand/or anti-icing agent comprising (a) at least about 10 weight percentbased on the weight of (a) and (b) of non-alkyl glucoside in solutionwith (b) water.
 13. An agent as defined in claim 12 further comprising asoluble salt.
 14. An agent as defined in claim 13 wherein said solublesalt comprises an organic salt selected from the group consisting of acarboxylic acid salt, a dicarboxylic acid salt, a hydroxycarboxylic acidsalt and mixtures thereof.
 15. An agent as defined in claim 14 whereinsaid organic salt comprises a hydroxyformate.
 16. An agent as defined inclaim 12 further comprising an effective freezing point lowering amountof a freezing point lowering additive selected from the group consistingof amino acids, salts of amino acids, lignin components, boric acid,salts of boric acid, glycerol, glycols and mixtures thereof.
 17. Anagent as defined in claim 13 further comprising an effective freezingpoint lowering amount of freezing point lowering additive selected fromthe group consisting of amino acids, salts of amino acids, lignincomponents, boric acid, salts of boric acid, glycerol, glycols andmixtures thereof.
 18. A deicing and/or anti-icing agent comprising (a)an effective freezing point lowering amount of sorbitol, (b) aneffective freezing point lowering amount of a freezing point loweringcompound selected from the group consisting of carboxylic acid salts,hydrocarboxylic acid salts, dicarboxylic acid salts, amino acids, saltsof amino acids, lignin components, boric acid, salts of boric acid,glycerol, glycols and mixtures thereof and (c) water.
 19. An agent asdefined in claim 18 wherein said freezing point lowering compoundcomprises a hydroxycarboxylic acid salt.
 20. An agent as defined inclaim 18 wherein said freezing point lowering compound comprises ahydroxyformate.
 21. An agent as defined in claim 18 wherein saidfreezing point lowering compound comprises an acetate.
 22. An agent asdefined in claim 18 wherein said freezing point lowering compoundcomprises a dicarboxylic acid salt.
 23. A deicing and/or anti-icingagent comprising (a) at least about 10 weight percent based on theweight of (a) and (c) of a hydrocarbyl aldoside; (b) an effectivefreezing point lowering amount of a freezing point lowering compoundselected from the group consisting of carboxylic acid salts,hydroxycarboxylic acid salts, dicarboxylic acid salts, amino acids,salts of amino acids, lignin components, boric acid, salts of boricacid, glycerol, glycols and mixtures thereof and (c) water.
 24. An agentas defined in claim 23 wherein said freezing point lowering compoundcomprises a hydroxycarboxylic acid salt.
 25. An agent as defined inclaim 23 wherein said freezing point lowering compound comprises ahydroxyformate.
 26. An agent as defined in claim 23 wherein saidfreezing point lowering compound comprises an acetate.
 27. An agent asdefined in claim 23 wherein said freezing point lowering compoundcomprises a dicarboxylic acid salt.
 28. A method for deicing oranti-icing a surface said method comprising applying to said surface adeicing agent comprising (a) at least about 10 weight percent based onthe weight of (a) and (b) of a hydrocarbyl aldoside selected from thegroup consisting of furanosides, maltosides, maltotriosides,glucopyranosides and mixtures thereof and (b) water.
 29. A method forde-icing or anti-icing a surface said method comprising applying to saidsurface a deicing agent comprising (a) an effective freezing pointlowering amount of sorbitol; (b) an effective freezing point loweringamount of a freezing point lowering compound selected from the groupconsisting of carboxylic acid salts, hydroxycarboxylic acid salts,dicarboxylic acid salts, amino acids, salts of amino acids, lignincomponents, boric acid, salts of boric acid, glycerol, glycols andmixtures thereof and (c) water.
 30. A method for de-icing and anti-icinga surface said method comprising applying to said surface a deicingagent comprising (a) at least about 10 weight percent based on theweight of (a) and (c) of a hydrocarbyl aldoside; (b) an effectivefreezing point lowering amount of a freezing point lowering compoundselected from the group consisting of carboxylic acid salts,hydroxycarboxylic acid salts, dicarboxylic acid salts, amino acids,salts of amino acids, lignin components, boric acid, salts of boricacid, glycerol, glycols and mixtures thereof and (c) water.
 31. Adeicing and/or anti-icing agent comprising (a) an industrial processstream comprising at least about 10 weight percent of a hydrocarbylaldoside selected from the group consisting of furanosides, maltosides,maltotriosides, glucopyranosides, non-alkyl glucosides and mixturesthereof, and (b) a soluble salt.
 32. A deicing and/or anti-icing agentas defined in claim 31 wherein said industrial process stream furthercomprises a hydroxycarboxylic acid, or a salt of hydroxycarboxylic acid.33. A deicing and/or anti-icing agent as defined in claim 32 whereinsaid industrial process stream comprises lactic acid.
 34. A deicingand/or anti-icing agent as defined in claim 31 wherein the industrialprocess stream is an agricultural process stream comprising at leastabout 10 weight percent of a hydrocarbyl aldoside selected from thegroup consisting of furanosides, maltosides, maltotriosides,glucopyranosides, non-alkyl glucosides and mixtures thereof.
 35. Adeicing and/or anti-icing agent as defined in claim 32 wherein thehydroxycarboxylic acid comprises hydroxyacetic acid or hydroxypropionicacid.
 36. A deicing and/or anti-icing agent as defined in claim 32wherein the aldoside comprises a glucopyranoside, a furanoside or amixture thereof.
 37. An agent as defined in claim 32 wherein saidindustrial process stream further comprises amino acids, salts of aminoacids and/or monosaccharide sugars.
 38. A method for deicing oranti-icing a surface said method comprising applying to said surface adeicing or anti-icing solution comprising (a) at least about 10 weightpercent based on the weight of (a) and (b) of a hydrocarbyl aldosideselected from the group consisting of non-alkyl glucosides and (b)water.